生物文献汇报
生物文献汇报ppt课件
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Experimental investigation of the gene of interest §Overexpression § Antisense inhibition § Germline knockout or gene replacement § Heterokaryon analysis § Somatic knockout or gene replacement (phenotypic assortment) § Gene ‘knock-in’ § Inducible promoter
Purpose
The purpose of this article is to showcase the tools that are available for functional genomic analysis in Tetrahymena, and to illustrate how different approaches can be harnessed to address a wide range of biological problems. At the heart of these approaches is a variety of methods for efficient DNA mediated cell transformation. An appreciation of the spectrum of possibilities requires a brief review of the unusual genetic organization of this orgathis complexity, the presence of features that are characteristic of metazoans but that are absent or less easily studied in other simple eukaryotic systems, that makes Tetrahymena so well suited for a wide range of fundamental problems including germline or somatic differentiation, programmed DNA rearrangements, distribution of mitotic chromosomes, histone modifications, microtubule diversity and tubulin modifications, basal body duplication, phagocytosis, function of rRNA, and regulated polypeptide secretion. These biological features and the functional genomics tools described in this article will greatly enhance the value of the genome sequencing project, currently under
生物文献汇报
Fig. 3. Phenotypic assortment illustrated during two cell cycles. The top circle represents a heterozygous G1 macronucleus (mac) generated either after a cross or after DNA-mediated transformation followed by integrative recombination. For clarity, the mac shows four allele copies (instead of 45): three are wild type and the fourth is mutant; for example, a knockout allele where the gene is disrupted by insertion of a neomycin-resistance cassette (red). The fused ovals represent macs undergoing division after DNA replication. Note that allele copies are partitioned randomly at each mac division. If neither allele has selective advantage, assortants pure for either allele are ultimately generated. In the presence of neomycin, vegetative descendants that acquire (by chance alone) a higher fraction of mac copies with the disrupted allele will be selected for; if the disrupted gene is essential, both alleles will be maintained by balanced selection.
几篇生物类文献介绍
几篇生物类文献介绍1.本篇文献主要讲述了RECK功能作为一个肿瘤抑制通过抑制迁移,入侵,和血管生成。
然而,是否RECK可以调整茎状的肿瘤细胞表型是未知的。
在本研究中,我们表明,RECK 是在胃癌细胞和下调是在CD133-positive进一步降低癌症茎状细胞。
异位表达下调的RECK的表达的诱导干细胞的基因包括Sox2,Oct4、Nanog和肿瘤干细胞标志物CD133。
DAPT(γ-secretase抑制剂)或 TAPI-2 (一个hydroxamate-based抑制剂的MMPs,肿瘤坏死因子α转换酶和ADAM17)减少Notch1脱落和激活导致干细胞基因和CD133衰减。
我们的数据表明,ADAM10和ADAM17是公司把下降RECK建议物理之间的相互作用对细胞表面有关系和亚当斯。
此外,RECK抑制球形成和球体的大小CD133-positive胃癌细胞。
Hong, Kun‐Jing, et al. "RECK Inhibits Stemness Gene Expression and Tumorigenicity of Gastric Cancer Cells by Suppressing ADAM‐Mediated Notch1 Activation." Journal of cellular physiology 229.2 (2014): 191-201.2.这篇文章的主要内容是:基因表达的标签是应用于临床预测的工具一样确定个人患有局部乳房肿瘤远处转移的发展的风险。
我们缺乏一个清晰的理解,荷兰国际集团,然而,这些相关的生物标记物是否链接到一个常见的生物网络,调节转移。
我们发现肿瘤蛋白调节的协调表达的13种不同的“可怜的结果“癌症标签。
此外,功能失活的在人类乳腺癌细胞在远距离的转移定位中可能是非常重要的。
Wolfer, Anita, et al. "MYC regulation of a “poor-prognosis” metastatic cancer cell state." Proceedings of the National Academy of Sciences107.8 (2010): 3698-3703.3.本文和病理性血管生成的机制有关,HYP OXIA在肿瘤的侵袭和转移仍然是难以捉摸的。
九篇生物研究性报告的范文
九篇生物研究性报告的范文英文回答:Introduction.Scientific research plays a pivotal role in advancing our understanding of the natural world and unlocking new discoveries. Biological research, in particular, investigates the complexities of living organisms, aiming to unravel the mysteries of life's processes, origins, and evolution. This collection of nine research reports showcases a diverse range of biological studies, each offering valuable insights into specific aspects of life science.Report 1: The Role of Genetics in Plant Adaptation.Explored the genetic variations responsible for drought tolerance in wheat plants.Identified key genes and pathways involved in theplant's response to water stress.Findings provide potential targets for genetic engineering to enhance crop resilience.Report 2: Immunomodulatory Effects of Green Tea Catechins.Investigated the anti-inflammatory and immune-boosting properties of green tea compounds.Assessed the effects of catechins on immune cell signaling and cytokine production.Results suggest that green tea may have therapeutic applications for immune disorders.Report 3: Neuroprotective Mechanisms of Resveratrol.Examined the neuroprotective effects of resveratrol, a natural plant compound.Evaluated its ability to mitigate oxidative stress and neuronal damage.Findings support the potential of resveratrol as a treatment for neurodegenerative diseases.Report 4: Diversity and Distribution of Marine Invertebrates.Surveyed the marine invertebrate communities in a coastal ecosystem.Identified and characterized various species of mollusks, crustaceans, and echinoderms.Data provides insights into ecosystem health and biodiversity conservation.Report 5: Biodegradation of Microplastics by Aquatic Fungi.Investigated the potential of aquatic fungi to break down microplastics in marine environments.Tested the ability of different fungal species to degrade plastic types.Findings suggest that fungi may play a role in mitigating plastic pollution.Report 6: Behavioral Ecology of Social Insects.Examined the social behavior and communication patterns of ant colonies.Observed ant interactions, nest construction, and foraging strategies.Findings provide insights into the organization and cooperation within insect societies.Report 7: Evolutionary History of Primates.Studied the evolutionary relationships among primates using comparative anatomy and genetic analysis.Reconstructed the branching patterns of the primate family tree.Findings shed light on the origins and diversification of our closest relatives.Report 8: Antimicrobial Properties of Plant Essential Oils.Evaluated the antibacterial and antifungal activities of essential oils from various plant species.Tested the effectiveness of oils against pathogenic microorganisms.Results indicate that plant essential oils may offer potential as natural antimicrobial agents.Report 9: Role of Microorganisms in Soil Fertility.Explored the relationship between soil microbes and nutrient cycling in agricultural systems.Examined the effects of microbial diversity on soil fertility and crop growth.Findings highlight the importance of microbial communities for sustainable agriculture.Conclusion.These nine biological research reports provide a glimpse into the diverse range of topics that fall under the umbrella of life science. From plant genetics to marine ecology, from immune function to social behavior, these studies expand our knowledge of living organisms and their interactions with the environment. As we continue to unravel the complexities of the natural world, biological research will play an ever more critical role in shaping our understanding of life and informing our decisions for the future.中文回答:绪论。
生物文献汇报总结范文
摘要:随着科学技术的不断发展,细胞衰老与免疫监视成为生物医学研究的热点。
本文通过对相关文献的汇报,总结细胞衰老的机制、衰老细胞与免疫监视的关系,以及p21在免疫监视中的重要作用,以期为相关研究提供参考。
一、细胞衰老的机制细胞衰老是生物体内细胞生命活动的一种自然现象,其机制主要包括以下几个方面:1. 线粒体功能障碍:线粒体是细胞能量代谢的中心,线粒体功能障碍会导致细胞能量供应不足,进而引发细胞衰老。
2. 氧化应激:细胞在代谢过程中产生大量自由基,自由基攻击细胞内分子,导致细胞损伤和衰老。
3. DNA损伤与修复:DNA损伤是细胞衰老的重要原因之一,细胞内DNA损伤修复机制失灵,会导致细胞衰老。
4. 细胞周期调控异常:细胞周期调控异常会导致细胞增殖失控,从而引发细胞衰老。
二、衰老细胞与免疫监视的关系免疫监视是机体清除异常细胞、维持内环境稳定的重要机制。
衰老细胞作为潜在的肿瘤细胞,需要被免疫系统识别和清除。
以下为衰老细胞与免疫监视的关系:1. 衰老细胞产生衰老相关分泌表型(SASP):衰老细胞会产生SASP,其中包括免疫调节细胞因子、趋化因子、基质重塑酶和生长因子等,有助于免疫系统识别衰老细胞。
2. 免疫细胞识别衰老细胞:免疫细胞通过识别衰老细胞表面的特定分子,如SASP中的分子,将其清除。
3. 免疫细胞调控衰老细胞死亡:免疫细胞通过释放细胞因子,调控衰老细胞的死亡,如细胞凋亡和自噬。
三、p21在免疫监视中的重要作用p21是一种细胞周期抑制剂,具有抑制细胞增殖、促进细胞衰老的作用。
近期研究表明,p21在免疫监视中发挥重要作用:1. p21促进衰老细胞产生SASP:p21可以促进衰老细胞产生SASP,有助于免疫系统识别衰老细胞。
2. p21增强免疫细胞对衰老细胞的识别:p21可以增强免疫细胞对衰老细胞的识别,提高免疫清除衰老细胞的能力。
3. p21调控免疫细胞活性:p21可以调控免疫细胞活性,促进免疫细胞清除衰老细胞。
学科生物文献汇报
学科生物文献汇报学科生物文献汇报应由本人根据自身实际情况书写,以下仅供参考,请您根据自身实际情况撰写。
学科生物文献汇报一、引言生物学是一门研究生物体及其生命活动规律的学科,其研究领域广泛,包括细胞、分子、基因、生态等多个方面。
在生物学研究中,文献综述是必不可少的一部分,通过对相关文献的梳理和分析,可以更好地了解研究领域的发展现状和趋势,为后续的研究提供参考和借鉴。
二、文献综述的目的和意义文献综述的目的是对某一研究领域的已有文献进行系统性的梳理和分析,总结出该领域的研究现状、研究问题和未来发展方向。
通过文献综述,可以了解该领域的研究进展和研究成果,发现研究的不足之处和需要进一步研究的问题,为后续的研究提供指导和启示。
三、文献综述的方法和步骤文献综述的方法和步骤包括以下几个方面:1. 确定研究领域和主题:根据研究需要,确定需要综述的领域和主题。
2. 收集文献:通过各种途径收集相关文献,包括学术期刊、会议论文、学位论文等。
3. 筛选文献:根据研究主题和目的,筛选出与主题相关的文献。
4. 整理文献:对筛选出的文献进行分类整理,按照不同的分类标准进行归纳和总结。
5. 分析文献:对整理好的文献进行分析,总结出研究现状、研究问题和未来发展方向。
6. 撰写综述:将分析结果撰写成综述文章,注意逻辑性和条理性。
四、学科生物文献综述的重点和难点学科生物文献综述的重点和难点包括以下几个方面:1. 确定研究领域和主题:生物学是一个非常广泛的领域,涉及多个学科方向,因此需要明确研究领域和主题,避免综述过于宽泛或过于狭窄。
2. 收集文献:生物学领域的文献数量庞大,需要采用多种途径进行收集,并注意文献的质量和相关性。
3. 筛选文献:需要对收集到的文献进行筛选,排除与主题不相关的文献,选择具有代表性的文献进行分析。
关于生物的研究报告(共9篇)
关于生物的研究报告第一篇:生物多样性的重要性生物多样性是指地球上生物种类的丰富程度和生物之间的遗传差异。
它是地球生态系统的重要组成部分,对人类的生活和生存有着深远的影响。
生物多样性不仅提供了丰富的食物、药物和原材料,还有助于维持生态平衡、控制疾病传播和调节气候。
生物多样性的丧失是一个全球性的问题,主要原因是人类活动导致的栖息地破坏、过度捕捞、污染和气候变化。
为了保护生物多样性,我们需要采取一系列措施,如建立自然保护区、推广可持续农业和渔业、减少污染和碳排放等。
第二篇:基因编辑技术及其在生物研究中的应用基因编辑技术是一种可以精确修改生物体基因组的技术,它在生物研究中有着广泛的应用。
通过基因编辑技术,科学家可以研究基因的功能、了解疾病的机制、开发新的治疗方法等。
目前,CRISPRCas9是最常用的基因编辑技术之一。
它利用一种名为Cas9的酶来切割DNA,并利用一种称为引导RNA的分子来定位需要修改的基因。
CRISPRCas9技术具有高效、准确和低成本等优点,因此被广泛应用于各种生物研究中。
第三篇:微生物在生物地球化学循环中的作用微生物是地球上最古老的生物之一,它们在生物地球化学循环中发挥着重要的作用。
微生物通过分解有机物质、固氮、甲烷产生等过程,将碳、氮、硫等元素循环回环境中。
微生物在生物地球化学循环中的作用对地球生态系统的稳定性和功能有着重要的影响。
例如,固氮微生物可以将大气中的氮气转化为植物可以利用的氮肥,从而促进植物的生长。
甲烷产生微生物则可以将有机物质转化为甲烷,影响全球气候。
第四篇:生物钟与生物节律的研究进展生物钟是生物体内的一种内在时间控制系统,它调节着生物体的生理和行为节律,如睡眠、觉醒、进食和繁殖等。
生物钟的节律通常与地球的自转和公转周期相匹配,形成24小时昼夜节律。
近年来,科学家们对生物钟的研究取得了显著的进展。
他们发现,生物钟的节律是由一组基因和蛋白质组成的分子机制所控制,这些基因和蛋白质相互调控,形成了一个复杂的反馈回路。
生物文献阅读报告范文
生物文献阅读报告范文
生物类的读书报告为人类重新谱写时间表有资料表明地球的年龄是46.5亿年,而人类诞生的历史只有短短400万年。
而世界各地进百年来不断发现事实,正名了早在3亿至5亿年前地球上就有人类活动,并留下人量活动遗迹。
在我国陕西省浦城县119年在劈山扩建“灵应夫人庙”时,发现“骸常具,印于石内”,后经我国考古工作着进行科学分析,确认岩石有4亿年历史,因此葬身于此石内的人骸骨的历史当然不会少于4亿年。
19xx年美国学者相继在犹他州的羚羊泉发现了与三叶虫化石同时存在的人类脚印化石。
而三叶虫生活在寒武纪时期,距今己有3亿至5亿牛的历史。
而有些建筑工程的遗迹也表明了人类的起源早于400万年前。
比如至今为止让人觉得神秘莫测的埃及金字塔和百慕大海域发现的水下金字塔,以及中国浙江省龙游县风凰山大型河石群,这些程就是现当代最杰出的建筑公可司也不能施工完成。
上述事实表明,在地球历史上,早在我们现代人类起源之前,在大约几亿牛前,地球上就诞生了史前人类。
而在约20亿牛前,地球上就出现了宇宙人。
是他们营造了适宜牛命诞牛和发展的宇宙环境,从而逐渐产生了史前人类。
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Discussion
The fraction F6 obtain eight compounds, Octacosane was shown to have toxicity to Culex quinquefasciatus; Ascorbic acid has been reported to cause slower growth and increased mortality against S. litura; Hexacosane exhibits oviposition deterrence against red spider mites; and so on.
litura and effects of active fractions on gut histological alterations in the S. litura. ✓ Ecotoxicological evaluation of active fraction and chemical pesticides against E.fetida.
Histology
Sectioning of larvae exposed to 50 and 100 ppm of fraction F6 was done with small pieces of mid gut tissue from fourth instar larvae (Fig. 8).
The midgut of the digestive system plays a vital role in the digestion of food and in the digestive enzymes secreted . Epithelial layers was showed degraded ; Damaging to cytoplasm organelles in the midgut was increased; the epithelial layer burst and the cytoplasmic ooze of cellular components mixed with food.
The nutritional indices clearly recoห้องสมุดไป่ตู้mend that the toxic chemical compounds present in fraction F6 have strong negative effects on food absorption and digestion of S. litura.
Target and non-target toxicity of botanical insecticide derived from Couroupita guianensis L. flower against generalist herbivore, Spodoptera litura Fab. and an earthworm, Eisenia foetida Savigny
➢ Earthworms are subtle indicators of soil quality, acting as decomposers in improving soil structure.
Content
✓ Investigation of active compounds through gas chromatographic techniques. ✓ Assessment of the dose dependent toxicity of active compounds against S.
Bioassays were implemented on second, third and fourth larval instars of S. litura using concentrations of 100, 200, 400 and 800 ppm of fraction F6.
Developmental study
Developmental study
Fig. 4 Fig. 6 Fig. 5
Food utilization, consumption and nutritional indices
Food utilization, consumption and nutritional indices of S. litura were measured to quantify the effect of the F 6 fraction of C. guianensis on food utilization of fourth instar larvae of S. litura (Table 2).
Methods and Result
Investigation of active compounds
Plant collection(fine particle size) Crude extract preparation(hexane, chloroform, ethyl acetate and methanol)
Earthworm toxicity
Percentage mortality of earthworm in filter paper test (FPT) and artificial soil test (AST) after treatment with fraction F6 and chemical pesticides.
Earthworms are capable to survive well in both toxicological assay while treated with the fraction F6 of C. guianensis. Suggest that fraction F6 of C. guianensis had no adverse effects on the soil non-target organism.
➢ S. litura has hundred and fifty host types and settled resistance ranged from 100 to 2700 fold against pyrethroids. So it is urgent to find new ways to control S. litura.
litura. ✓ Measurement of the behavioral response of S. litura treated with active
compounds of C. guianensis. ✓ Estimation of bioefficacy of active fractions on nutritional physiology of S.
XXX 2018.9
Introduction
➢ Plants are the biochemical factories in nature able to produce a complex mixture of chemical compounds.
➢ C. guianensis, the flowers are used in medicine, the extracts have antifungal, antibiotic, antiseptic, analgesic properties and larvicidal activity.
Chromatographic analysis(F1, F2, F3, F4, F5 and F6 ) GC–MS analysis(Fig. 1B. Table 1) FT-IR and HPLC analysis(Fig. 1C)
GC–MS FT-IR and HPLC analysis
Mortality bioassays
Developmental studies were executed with second instar larvae. Fresh leaves of castor treated with 50, 100, 150 and 200 ppm of fraction F6 and reared on larvae. Every 24 h, larval weight was recorded (Fig. 5). The duration of larval and pupal stages were recorded (Fig. 4). Pupae were weighed on the first day after pupation (Fig. 6). Fecundity assay was determined by the number of progeny produced (Fig. 6).The mean adult longevity of S. litura was observed from the first day of emergence from the pupae and recorded (Fig. 4).